The two springs have a stiffness k = 1.2 kN/m, and have the same length and are without deform when 8 = 0°. If the mechanism starts from rest when 0 = 01. The mass of each sphere is m. Treat the spheres as particles and neglect the masses of the rods. and springs. Determine when 0 = 02: a) The angular velocity of the mechanism b) If the rod OB supports a normal force of N = 15 N, check if the rod fails (Explain why the rod fails or does not fail) Variables: m, 0₁,0₂ A m 0₁ 0₂ e [kg] [] [°] 2,5 25 7 C 0,25 m

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The two springs have a stiffness k = 1.2 kN/m, and have the same length and are without
deform when 8 = 0°. If the mechanism starts from rest when 0 = 01. The mass of
each sphere is m. Treat the spheres as particles and neglect the masses of the rods.
and springs.
Determine when 0 = 02:
a) The angular velocity of the mechanism
b) If the rod OB supports a normal force of N = 15 N, check if the rod fails (Explain why the rod
fails or does not fail)
Variables: m, 0₁,0₂
A
m
0₁
0₂
e
[kg]
[]
[°]
2,5
25
7
C
0,25 m
B
Transcribed Image Text:The two springs have a stiffness k = 1.2 kN/m, and have the same length and are without deform when 8 = 0°. If the mechanism starts from rest when 0 = 01. The mass of each sphere is m. Treat the spheres as particles and neglect the masses of the rods. and springs. Determine when 0 = 02: a) The angular velocity of the mechanism b) If the rod OB supports a normal force of N = 15 N, check if the rod fails (Explain why the rod fails or does not fail) Variables: m, 0₁,0₂ A m 0₁ 0₂ e [kg] [] [°] 2,5 25 7 C 0,25 m B
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